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Publication numberUS8670383 B2
Publication typeGrant
Application numberUS 13/006,950
Publication date11 Mar 2014
Filing date14 Jan 2011
Priority date28 Dec 2006
Also published asUS7873061, US20080159319, US20110255466
Publication number006950, 13006950, US 8670383 B2, US 8670383B2, US-B2-8670383, US8670383 B2, US8670383B2
InventorsMatthew Stuart Gast, Richard Thomas Bennett
Original AssigneeTrapeze Networks, Inc.
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
System and method for aggregation and queuing in a wireless network
US 8670383 B2
Abstract
A technique for improved throughput at an access point (AP) involves when frames are received for transmission by the AP, queuing the frames for a particular station. A system constructed according to the technique may include an aggregation and queuing layer. Station queues may be processed by the aggregation and queuing layer before being given to radio hardware for transmission. In an illustrative embodiment, when frames are received by the aggregation and queuing layer, the packet will be assigned a target delivery time (TDT) and an acceptable delivery time (ADT). The TDT is the “ideal” time to transmit a frame, based on its jitter and throughput requirements. Frames are mapped on to a time axis for transmission by TDT. In an illustrative embodiment, each frame is mapped by priority, so that there are separate maps for voice, video, best effort, and background frames. There will be gaps between frames for transmission that can be used for aggregation.
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Claims(20)
What is claimed is:
1. An apparatus implemented in at least one of a memory or a processing device, comprising:
an engine configured to be coupled to at least one ingress queue and at least one output queue,
the engine configured to assign a target delivery time (TDT) to a first packet having a destination, a TDT to a second packet having the destination of the first packet, and a TDT to a third packet having a destination, the first packet, the second packet, and the third packet being in the at least one ingress queue,
if a duration of time, between the TDT of the first packet and the TDT of the third packet, exists such that aggregating and sending the first packet and the second packet results in (1) the first packet being sent before the TDT of the first packet and (2) the third packet being sent before the TDT of the third packet:
the engine configured to (1) aggregate the first packet and the second packet to produce an aggregated packet, (2) enqueue the aggregated packet on the at least one egress queue, and (3) enqueue the third packet, after the aggregated packet, on the at least one egress queue.
2. The apparatus of claim 1, wherein the engine is configured to be coupled to at least one station associated with the at least one ingress queue.
3. The apparatus of claim 1, wherein the engine is configured to be coupled to the at least one ingress queue receiving, from a distribution system, the first packet, the second packet, and the third packet.
4. The apparatus of claim 1, wherein the engine is configured to be coupled to the at least one ingress queues including a plurality of sub-queues associated with packet transmission priorities.
5. The apparatus of claim 1, wherein the at least one egress queue is a plurality of egress queues, the engine is configured to be coupled to the plurality of egress queues, each egress queue from the plurality of egress queues associated with a packet priority from a plurality of packet priorities.
6. The apparatus of claim 1, wherein, the third packet TDT immediately follows the first packet TDT.
7. The apparatus of claim 1, wherein, the first packet TDT immediately follows the third packet TDT.
8. The apparatus of claim 1, wherein the engine is configured to append the second packet to the first packet to produce the aggregated packet.
9. The apparatus of claim 1, wherein the engine is configured to provide data to at least one station data indicating when a medium is predicted to be busy.
10. A non-transitory processor-readable medium storing code representing instructions to be executed by a processor, the code comprising code to cause the processor to:
assign (1) a target delivery time (TDT) to a first packet having a destination, (2) a TDT to a second packet having the destination of the first packet, and (3) a TDT to a third packet having a destination;
determine if a duration of time, between the TDT of the first packet and the TDT of the third packet, exists such that aggregating and sending the first packet and the second packet results in (1) the first packet being sent before the TDT of the first packet and (2) the third packet being sent before the TDT of the third packet; and
when the duration of time exists:
aggregate the first packet and the second packet to produce an aggregated packet;
enqueue the aggregated packet in an egress queue; and
enqueue the third packet, after the aggregated packet, in the egress queue.
11. The non-transitory processor-readable medium storing code representing instructions to be executed by the processor of claim 10, wherein the third packet TDT immediately follows the first packet TDT.
12. The non-transitory processor-readable medium storing code representing instructions to be executed by the processor of claim 10, wherein the first packet TDT immediately follows the third packet TDT.
13. The non-transitory processor-readable medium storing code representing instructions to be executed by the processor of claim 10, the code comprising code to cause a processor to aggregate the first packet and the second packet further includes code to cause the processor to append the second packet to the first packet to produce the aggregated packet.
14. The non-transitory processor-readable medium storing code representing instructions to be executed by the processor of claim 10, the code further comprising code to cause a processor to send data to at least one station indicating when a wireless medium is predicted to be busy.
15. A method, comprising:
receiving a first packet having a destination, a second packet having the destination of the first packet, and third packet having a destination;
assigning (1) a target delivery time (TDT) to the first packet, and (2) a TDT to the third packet; and
if a duration of time, between the TDT of the first packet and the TDT of the third packet, exists such that aggregating and sending the first packet and the second packet results in (1) the first packet being sent before the TDT of the first packet and (2) the third packet being sent before the TDT of the third packet:
enqueueing an aggregated first packet and second packet to produce an aggregated packet; and
enqueueing the third packet after the aggregated packet.
16. The method of claim 15, wherein, the third packet TDT immediately follows the first packet TDT.
17. The method of claim 15, wherein, the first packet TDT immediately follows the third packet TDT.
18. The method of claim 15, wherein enqueueing the aggregated packet includes appending the second packet to the first packet.
19. The method of claim 15, further comprising sending data to at least one station indicating when a wireless medium is predicted to be busy.
20. The method of claim 15, wherein receiving the first packet includes receiving the first packet from at least one ingress queue including a plurality of sub-queues associated with packet transmission priorities.
Description
CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. application Ser. No. 11/648,359, entitled “System and Method for Aggregation and Queuing in a Wireless Network,” filed Dec. 28, 2006, (now U.S. Pat. No. 7,873,061), which is incorporated herein by reference in its entirety.

BACKGROUND

Wireless networks often have lower throughput than their wired counterparts due to a relatively noisy network medium. Digital radio networks typically need extensive preambles to set up a receiver. This effect is especially pronounced in OFDM networks because each subcarrier on the channel needs individual setup. The unfortunate side-effect of preamble transmission is that it requires time. This overhead can potentially dramatically reduce the time available on the medium for transmitting user data.

One of the ways to improve the speed of a packet-based network is to transmit larger packets. Larger packets are able to “amortize” the overhead over larger numbers of data bits, and are thus more efficient. 802.11n makes extensive use of aggregation to improve transmission efficiency. However, the standard does not specify when frames will be aggregated, or how large they should be.

These are but a subset of the problems and issues associated with wireless access point authentication, and are intended to characterize weaknesses in the prior art by way of example. The foregoing examples of the related art and limitations related therewith are intended to be illustrative and not exclusive. Other limitations of the related art will become apparent to those of skill in the art upon a reading of the specification and a study of the drawings.

SUMMARY

The following embodiments and aspects thereof are described and illustrated in conjunction with systems, tools, and methods that are meant to be exemplary and illustrative, not limiting in scope. In various embodiments, one or more of the above-described problems have been reduced or eliminated, while other embodiments are directed to other improvements.

A technique for improved throughput at an access point (AP) involves when frames are received for transmission by the AP, queuing the frames for a particular station. In an illustrative embodiment, each station's frames are held in four sub-queues, which represent the four “standard” priorities in 802.11 (voice, video, best effort, and background).

A system constructed according to the technique may include an aggregation and queuing layer. Station queues may be processed by the aggregation and queuing layer before being given to radio hardware for transmission. In an illustrative embodiment, when frames are received by the aggregation and queuing layer, the packet will be assigned a target delivery time (TDT) and an acceptable delivery time (ADT). The TDT is the “ideal” time to transmit a frame, based on its jitter and throughput requirements. For example, it is ideal that a frame belonging to a G.711 voice call is transmitted 20 ms after the previous frame. The ADT is the latest that a frame may be transmitted and still be acceptable. In some cases, the ADT and TDT may be very close. An example would be a voice station that has small jitter buffers, and requires that the network reduce jitter.

In an illustrative embodiment, TDT and ADT are assigned by the queue manager based on the type of traffic and its characteristics. When a station first connects to the network, it may specify bandwidth through a traffic specification (TSPEC), a feature of the 802.11 protocol that allows a station to specify the characteristics of the traffic that may be sent. It is also possible to configure characteristics administratively, by configuring a target jitter amount for voice traffic as part of the system configuration.

To decide which frame to transmit, the queue manager may look at the outstanding frames in the queue. Frames are mapped on to the time axis for transmission by TDT. In an illustrative embodiment, each frame is mapped by priority, so that there are separate maps for voice, video, best effort, and background frames. There will be gaps between frames for transmission that can be used for aggregation.

The proposed system can offer, among other advantages, improved AP throughput. This and other advantages of the techniques described herein will become apparent to those skilled in the art upon a reading of the following descriptions and a study of the several figures of the drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 depicts an example of a system including an access point (AP) with an aggregation and queuing layer.

FIG. 2 depicts a conceptual diagram that is intended to illustrate tail aggregation.

FIG. 3 depicts a conceptual diagram that is intended to illustrate head aggregation.

FIG. 4 depicts an example of a system including an aggregation/queue manager that maintains timings for several packets relatively deep in a queue.

FIGS. 5A and 5B depict diagrams illustrating a map describing when a medium is predicted to be busy.

FIG. 6 depicts a flowchart of an example of a method.

DETAILED DESCRIPTION

In the following description, several specific details are presented to provide a thorough understanding of embodiments of the invention. One skilled in the relevant art will recognize, however, that the invention can be practiced without one or more of the specific details, or in combination with other components, etc. In other instances, well-known implementations or operations are not shown or described in detail to avoid obscuring aspects of various embodiments, of the invention.

FIG. 1 depicts an example of a system 100 including an access point (AP) with an aggregation and queuing layer. The system 100 includes a distribution system 102 and an AP 104. The distribution system 102 may include one or more wireless switches (not shown), such as, by way of example but not limitation, Trapeze Networks, Inc. MOBILITY EXCHANGE™ (or MX®) switches. However, any applicable known or convenient distribution system that is capable of coupling APs of a wireless network together could be used. In an illustrative embodiment, the distribution system 102 is coupled to, by way of example but not limitation, a wired network. Typically, though not necessarily, the wired network is coupled to the Internet.

The AP 104 may include, by way of example but not limitation, a Trapeze Networks, Inc. MOBILITY POINT™ (or MP®) AP. However, any applicable known or convenient AP that is capable of coupling a wireless device (or station) to the distribution system 102 could be used. It may be noted that a station could include an AP. A wireless AP that is coupled to the distribution system 102 through one the AP 104 may be referred to as an untethered AP.

It should be noted that not all technologies include the term AP in the literature. For example, SGSN technology does not refer to an access point as an “AP.” However, all wireless access technologies require something comparable (i.e., a node at which wireless communications are received and/or transmitted). For example, an independent basic service set (BSS) includes stations that access the service area by directly communicating with one another; thus, the access nodes are the stations themselves. Accordingly, AP is considered to be generally applicable to any technology, regardless of actual verbiage used to describe a BSS with equivalent functionality.

In the example of FIG. 1, the AP 104 may be associated with a BSS. Together with other APs supported by the distribution system 102, the AP 104 may be associated with an extended service set (ESS). In an illustrative embodiment, all APs of an ESS would likely have the same service set identifier (ssid), which serves as a network “name.” In addition, each of the APs would likely have a unique BSS identifier (bssid), which serves as a station “name.” (Some stations may have multiple bssids.) Although this is common for networks that include an ESS, literature may refer to equivalent identifiers in alternative network implementations or when using different technologies using different terminology. Applicable techniques described herein would still apply.

As used herein, the term “wireless domain” is intended to include a BSS, ESS, network implementations or technologies using different terminology, or any other applicable wireless network. The wireless domain may include, by way of example but not limitation, a Trapeze Networks, Inc. MOBILITY DOMAIN™ wireless domain. The wireless domain includes the AP 104 and may include other APs (not shown).

In the example of FIG. 1, stations 106-1 to 106-N (referred to collectively as stations 106) are depicted for illustrative purposes. The AP 104 forwards traffic from the distribution system 102 to the stations 106, and vice versa. (Some traffic may or may not have the AP 104 as the final destination.) Since the distribution system 102 and the AP 104 are coupled via a wire connection, and the AP 104 and the stations 106 are wirelessly connected, the aggregation and queuing techniques that are used, if any, may be different. Herein, it is assumed that some appropriate known or convenient technique is used to send traffic from the AP 104 to the distribution system 102.

In the example of FIG. 1, the stations 106 associate with the AP 104. The stations 106 may be practically any known or convenient device that is capable of communicating with a wireless network, such as, by way of example but not limitation, a pda, cell phone, laptop, or untethered AP. The stations 106, as used herein, may be referred to as devices with a media access control (MAC) address and a physical layer (PHY) interface to the wireless medium that comply with the IEEE 802.11 standard, or some other known or convenient standard, such as IEEE 802.15 or a proprietary wireless standard. Similarly, in some embodiments, the AP 104 is, at least technically, a station.

In the example of FIG. 1, the AP 104 includes ingress queues 108-1 to 108-N (referred to collectively as ingress queues 108), an aggregation and queuing engine 110, a plurality of egress queues 112-1, 112-2, 112-3, 112-4 (referred to collectively as egress queues 112), and radio hardware 114. In an illustrative embodiment, each of the stations 106 is associated with a respective one of the ingress queues 108. At any given time, the ingress queues 108 may or may not have the same number of queues as stations 106. However, for illustrative purposes, it is assumed that an ingress queue is associated with each of the stations 106.

In the example of FIG. 1, each of the ingress queues 108 has four sub-queues. In an illustrative embodiment, the sub-queues represent the four “standard” priorities in 802.11 (i.e., voice, video, best effort, and background). However, the actual number of sub-queues 114 is implementation-specific. For example, even if there are four priorities, in an implementation, it may be decided to merge background QoS with best effort QoS, since background traffic is rarely used (for whatever reason). In such an implementation, there would only be three sub-queues. As another example, in an implementation, it could be decided that video QoS could be subdivided into two QoS subtypes such that video can have either a first priority or a second priority. The determination could be based on, for example, administrative privileges or relative stature within an enterprise of the sender or receiver of the video traffic. As another example, it could be determined that an entirely new priority queue system should be used that has little to do with the “standard” priorities in 802.11.

It should be noted that the actual logic and allocation of resources toward implementation of the ingress queues 108 may vary. For example, each of the queues 108 may have four allocated sub-queues for a total of 4*N allocated [sub]queues. Alternatively, in another embodiment, all traffic could be enqueued in four sub-queues, without considering the destination of the traffic. Alternatively, in another embodiment, all traffic could be enqueued in a single queue, with, e.g., indicators identifying priority. Thus, although the traffic may be logically divided into N queues of 4 sub-queues, the relevant techniques described herein should be applicable regardless of the actual implementation. The ingress queues 108 may be embodied in a computer-readable medium, implemented in hardware, or some combination thereof.

The traffic enqueued on the ingress queues 108 is in the form of units of traffic. Units of traffic may include packets, frames, or some other unit. For illustrative simplicity, the term packet is used herein to describe any unit of traffic, though this could include frames or some other synchronous or asynchronous unit of traffic, and is not intended to limit the description to one or another of the OSI layers, or a particular technology or protocol.

In an illustrative embodiment, the aggregation and queuing engine 110 is embodied in a computer-readable medium. As would be known to one of ordinary skill in the computer arts, a processor would be used to run executable code on the computer-readable medium or to access data and/or executable code on the computer-readable medium. In a non-limiting embodiment, when a packet is received by the aggregation and queuing engine 110, the packet is assigned a target delivery time (TDT) and an acceptable delivery time (ADT). The TDT is the “ideal” time to transmit a packet, based on, by way of example but not limitation, jitter and throughput requirements for the packet. For example, it may be considered ideal that a packet belonging to a G.711 voice call is transmitted 20 ms after the previous packet. The ADT is the latest that a packet may be transmitted and still be acceptable. In some cases, the ADT and TDT may be very close. An example would be a voice station that has small jitter buffers, and requires that the network reduce jitter.

TDT and ADT are assigned by the aggregation and queuing engine 110 based on, by way of example but not limitation, the type of traffic and its characteristics. In a specific non-limiting embodiment, when a station first connects to the network, it may specify bandwidth through a traffic specification (TSPEC), a feature of the 802.11 protocol that allows a station to specify the characteristics of the traffic that may be sent. It is also possible to configure characteristics administratively, by configuring a target jitter amount for voice traffic as part of the system configuration.

The aggregation and queuing engine 110 is useful primarily to aggregate traffic from the ingress queues 108 and enqueue the traffic on the egress queues 112 for transmission to the stations 106. To decide which packet to transmit, the aggregation and queuing engine 110 looks at the outstanding packets in the ingress queues 108. Packets are mapped on to a time axis for transmission by TDT. In a non-limiting embodiment, each packet is mapped by priority, so that there are separate maps for, by way of example but not limitation, voice, video, best effort, and background packets. There will be gaps between packets for transmission that can be used for aggregation. After aggregation, if any, the packets are enqueued on the egress queues 112.

In the example of FIG. 1, the four egress queues 112 are associated with the four “standard” priorities in 802.11 (i.e., voice, video, best effort, and background), implemented in a manner similar (though not necessarily the same as) that described above with reference to the ingress queues 108. The actual number of egress queues 112 is implementation-specific, and may be different from the number of sub-queues of the ingress queues 108. For example there may be four sub-queues for the ingress queues 108, but the aggregation and queuing engine 110 outputs only three (e.g., voice, video, and best effort/background).

In the example of FIG. 1, the egress queues 112 are coupled to the radio hardware 114. The radio hardware 114 may include one or more radios. Any applicable known or convenient radio hardware that is capable of sending a wireless packet from the AP 104 to one or more of the stations 106 may be used. The radio hardware 114 may or may not also receive wireless traffic from one or more of the stations 106.

FIG. 2 depicts a conceptual diagram 200 that is intended to illustrate tail aggregation. In the example of FIG. 2, the diagram 200 includes a packet A1 202, a follow-on packet A2 204, and a packet B1 206. For illustrative purposes, the packet A1 202 is being sent to station A (not shown), the packet A2 204 is being sent to station A, and the packet B1 206 is being sent to station B (not shown). The packets A1, A2, B1 are scheduled for transmission at respective TDTs by a queue/aggregation manager. Between packets is a gap of available airtime, including a first portion that may be referred to as available aggregation time and a second portion that may be referred to as an inter-packet space (IPS). In the example of FIG. 2, time flows to the right.

Packet A1 202 and packet B1 206 have a sufficiently high priority that they are scheduled to ensure that they are sent prior to their respective TDTs, if at all possible. In this example, the packet A2 204 is scheduled for sending later. However, the gap of available airtime between packet A1 202 and packet B1 206 could be used to schedule another packet that is bound for station A, in this example the packet A2 204, by aggregating the packet A1 202 and the packet A2 204.

A packet that is available in the queue for Station A can be transmitted as part of an aggregated packet to Station A, so long as the aggregated packet leaves at least an IPS between the aggregated packet and the packet B1 206. In other words, in an illustrative embodiment, when computing the available time for aggregation, one should leave space for the IPS. (In practice, it may be necessary to transmit the entire aggregate by the TDT of any component packet so that subframes within the aggregate are available.) It is likely that the aggregate is formed by taking a lower-priority packet and allowing it to ride on the end of the high-priority packet, though this is not necessarily a requirement.

FIG. 3 depicts a conceptual diagram 300 that is intended to illustrate head aggregation. In the example of FIG. 3, the diagram 300 includes a packet A1 302, a packet B0 304, and a packet B1 306. In this example, the available aggregation time is computed similarly to that of tail aggregation (FIG. 2), but in the gap of available airtime between the packet A1 302 and the packet B1 306, the packet B0 304 is prepended to the packet B1 306. The order of the packets within the aggregate is not important. For instance, in the example of FIG. 3, the packet B0 304 is prepended to the packet B1. However, since, in an illustrative embodiment, the packet B1 306 has a higher priority that the packet B0 304, in at least some implementations the packet B0 304 will actually be appended, and the packet B1 306 placed at the front of the aggregated packet B0+B1. This ensures that higher priority packets are at the front of an aggregated packet, ensuring they are received first at the target station.

Aggregated packets including high-priority data should be transmitted with high priority as well, though this is actually an implementation-specific decision. However, sending aggregated packets at the highest priority of the sub-packets has beneficial effects for reducing overhead because fewer backoff slots will be used.

FIG. 4 depicts an example of a system 400 including an aggregation/queue manager 410 that maintains timings for several packets relatively deep in a queue. Advantageously, this facilitates fitting the largest possible packet into the available gap of airtime. In the example of FIG. 4, two incoming stations (A and B) are sending packets, and each packet has an expected duration. For illustrative purposes, the packets from station A are numbered A1 to AM and the packets from station B are numbered B1 to BN and the packets from station A and station B have respective durations A1 to AM and B1 to BN. The aggregation/queue manager 410 knows that it may transmit a packet to A with duration A1, but if the gap is large enough, it can transmit an aggregate frame to A with duration A1+Ai. Presumably, if A2, since it would be the next in the queue would be the first choice for aggregation with A1, but since A2 might be larger than is allowed, in general, where aggregation is possible, A1 is aggregated with Ai.

Knowing when the medium is busy may help the aggregation/queue manager 410 schedule transmissions. Communicating that information to client devices may help further reduce overhead and improve service by letting other stations know how large the scheduled gaps are. Two methods of communicating this are illustrated in FIGS. 5A and 5B.

FIG. 5A depicts a diagram 500A illustrating a beacon map describing when a medium is predicted to be busy. In an illustrative embodiment, a beacon packet 502 is transmitted at a Target Beacon Transmission Time (TBTT). In the beacon packet 502, there is a map that describes when the medium is predicted to be busy. An AP fills in this map based on, by way of example but not limitation, TSPEC reservations. Client stations could read the gaps 504 in the map and use that to size aggregates appropriately.

FIG. 5B depicts a diagram 500B illustrating an RTS or CTS packet map describing when a medium is predicted to be busy. The example of FIG. 5B illustrates what may in some implementations be a more distributed approach than that of FIG. 5A. In an illustrative embodiment, an RTS or CTS packet has a “repetitive” flag option. A station transmits a CTS 506 that specifies a time at which a packet having an associated duration will be transmitted after every beacon. Every station that hears the CTS should then be able to build a map with a transmission at that point after the beacon.

FIG. 6 depicts a flowchart 600 of an example of a method for packet aggregation and queuing. This method and other methods are depicted as serially arranged modules. However, modules of the methods may be reordered, or arranged for parallel execution as appropriate. In the example of FIG. 6, the flowchart 600 starts at module 602 where a first TDT is assigned to a first packet having a first destination.

In the example of FIG. 6, the flowchart 600 continues to module 604 where a second TDT is assigned to a second packet having the first destination. Notably, in this example, the first packet and the second packet have the same destination. This is important because packets being sent to different destinations from an AP in a wireless network would not likely be aggregated. It may be noted, however, that the first destination may be a next hop for one or both of the first and second packets, and the first and second packets could have different final destinations.

In the example of FIG. 6, the flowchart 600 continues to module 606 where a third TDT is assigned to a third packet having a second destination. In this example, the first packet and the third packet are assumed to have earlier TDT or priority than the second packet. If the first packet and the third packet were being sent to the same destination, then the third packet, which has a higher priority than the second packet, would be more appropriately aggregated with the first packet. Accordingly, this example assumes that the third packet has a different destination from that of the first packet and the third packet.

In the example of FIG. 6, the flowchart 600 continues to module 608 where the first packet, second packet, and third packet are mapped onto a time axis for transmission by TDT. As has been mentioned, it is assumed that the first and third packets have higher priority than the second packet. Accordingly, the first and third packets would be mapped before the second packet in the TDT. Thus, the order on the time axis could be either first packet-third packet-second packet or third packet-first packet-second packet.

In the example of FIG. 6, the flowchart 600 continues to module 610 where the first packet and the second packet are aggregated. If the first packet precedes the third packet in the time axis, then the aggregation would be a tail aggregation (i.e., the second packet would be appended to the first packet). If the third packet precedes the first packet in the time axis, then the aggregation would be head aggregation. As described previously, the second packet would not necessarily be prepended to the first packet in the case of head aggregation, since it may be desirable for the first packet to be first in the aggregated packet.

In the example of FIG. 6, the flowchart 600 continues to module 612 where the aggregated first packet and the second packet are transmitted to the first destination, and to module 614 where the third packet is transmitted to the second destination. If the first packet preceded the third packet in the time axis, then the aggregated packet may be sent before the third packet (i.e., 612 then 614). If the third packet preceded the first packet in the time axis, then the third packet may be sent before the aggregated packet (i.e., 614 then 612).

As used herein, a wireless network refers to any type of wireless network, including but not limited to a structured network or an ad hoc network. Data on a wireless network is often encrypted. However, data may also be sent in the clear, if desired.

As used herein, access point (AP) refers to receiving points for any known or convenient wireless access technology. Specifically, the term AP is not intended to be limited to 802.11 APs.

Some portions of the detailed description are presented in terms of algorithms and symbolic representations of operations on data bits within a computer memory. These algorithmic descriptions and representations are the means used by those skilled in the data processing arts to most effectively convey the substance of their work to others skilled in the art. An algorithm is here, and generally, conceived to be a self-consistent sequence of operations leading to a desired result. The operations are those requiring physical manipulations of physical quantities. Usually, though not necessarily, these quantities take the form of electrical or magnetic signals capable of being stored, transferred, combined, compared, and otherwise manipulated. It has proven convenient at times, principally for reasons of common usage, to refer to these signals as bits, values, elements, symbols, characters, terms, numbers, or the like.

It should be borne in mind, however, that all of these and similar terms are to be associated with the appropriate physical quantities and are merely convenient labels applied to these quantities. Unless specifically stated otherwise as apparent from the following discussion, it is appreciated that throughout the description, discussions utilizing terms such as “processing” or “computing” or “calculating” or “determining” or “displaying” or the like, refer to the action and processes of a computer system, or similar electronic computing device, that manipulates and transforms data represented as physical (electronic) quantities within the computer system's registers and memories into other data similarly represented as physical quantities within the computer system memories or registers or other such information storage, transmission or display devices.

The algorithms and techniques described herein also relate to apparatus for performing the algorithms and techniques. This apparatus may be specially constructed for the required purposes, or it may comprise a general purpose computer selectively activated or reconfigured by a computer program stored in the computer. Such a computer program may be stored in a computer readable storage medium, such as, but is not limited to, read-only memories (ROMs), random access memories (RAMs), EPROMs, EEPROMs, magnetic or optical cards, any type of disk including floppy disks, optical disks, CD-ROMs, and magnetic-optical disks, or any type of media suitable for storing electronic instructions, and each coupled to a computer system bus.

As used herein, the term “basic service set identifier” (bssid) has a particular meaning in the art. That is, a bssid is at least associated with each AP. The “service set identifier,” on the other hand, is assigned to all of the APs of a network. It should be noted, however, that these terms are simply labels, and that, depending upon implementation details or technology, different terms may be used. Accordingly, with the intent to capture the general meaning of an identifier for an AP, the term AP identifier (AP ID) is used in the claims, and it should be understood that a wireless domain that includes the AP IDs is, in at least some embodiments and implementations, to have a name (i.e., the equivalent of an ssid).

As used herein, the term “embodiment” means an embodiment that serves to illustrate by way of example but not limitation.

It will be appreciated to those skilled in the art that the preceding examples and embodiments are exemplary and not limiting to the scope of the present invention. It is intended that all permutations, enhancements, equivalents, and improvements thereto that are apparent to those skilled in the art upon a reading of the specification and a study of the drawings are included within the true spirit and scope of the present invention. It is therefore intended that the following appended claims include all such modifications, permutations and equivalents as fall within the true spirit and scope of the present invention.

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Classifications
U.S. Classification370/328, 370/310, 370/339, 370/312
International ClassificationH04W4/00
Cooperative ClassificationH04L49/90, H04W88/08, H04L47/564, H04W72/1242, H04L47/50
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